CN2919448Y - Disk driving machine locking and fixing structure - Google Patents

Abstract

A disk drive locking and fixing structure is used for the disk drive with a plurality of slots positioned on one wall. The utility model comprises a magnetism support for holding the disk drive, an elastic piece fixed on the side wall of the magnetism support and an actuation piece. A plurality of block fixing slices are positioned on the elastic pieces corresponding to slots of the disk drive. The moveable piece has two elastic arms close to the side wall of the magnetism support; fixing a side of the elastic arm another side is free side. The free sides are respectively provided with a block stopping part of the elastic part. The disk drive locking and fixing structure is simple in structure and convenient to use.

Description

The disk drive lock solid structure

[technical field]

The utility model relates to a kind of disk drive lock solid structure, particularly a kind of simple in structure, easy to operate disk drive lock solid structure.

[background technology]

Computer all is equipped with disk drives such as hard disk, CD-ROM drive or floppy drive, and these disk drives lock on Computer magnetic shelf with screw mostly, the assembly of magnet stand together with this disk drive is locked in computer casing with screw again.The user is when safeguarding or change computer assembly, usually need to dismantle each assembly, and in aforementioned locking disk drive mode, when dismantling this disk drive, need earlier magnet stand to be pulled down from this computer casing together with the assembly of this disk drive, and then this disk drive pulled down from this magnet stand, this traditional disk drive all needs the user to lock or a large amount of screws of pine oil in its assembling or unloading process each time.And also need by turnscrew in cargo handling process, process is very loaded down with trivial details, and the screw volume is less, loses easily when installing and dismantling, and makes troubles to the operator.

Another is the mode of disk drive fixedly, be earlier magnet stand to be fixed in the computer casing, relend and help screw that this disk drive is fixed in this magnet stand, it is when each installation or removal disk drive, though saved the step of loading and unloading this magnet stand, right its still need lock or a large amount of screws of pine oil locking between this disk drive and this magnet stand, and correlation technique please refer to the TaiWan, China patented claim No. 85212165.

[summary of the invention]

In view of above content, be necessary to provide a kind of disk drive lock solid structure simple in structure, easy to use.

A kind of disk drive lock solid structure is used for fixing the disk drive that a sidewall is provided with a plurality of hole clippings.It comprises a magnet stand in order to ccontaining described disk drive, and one is fixed in an elastic component and the actuator on described magnet stand one sidewall.The hole clipping of the corresponding described disk drive of described elastic component is provided with a plurality of fixing sheets, described actuator is installed on the described magnet stand sidewall, be used for described elastic component is fixed in described magnet stand, described actuator has two elastic arms that are attached at described magnet stand sidewall, described elastic arm one end is fixed, the other end is a free end, and described free end is respectively equipped with the fastener that a button is held described elastic component.

Relative prior art, described disk drive lock solid structure can be fastened in described elastic component on the described magnet stand by described actuator, thereby finishes the locking of disk drive.During dismounting, can make described elastic component break away from described magnet stand and finish, make the installation and removal of disk drive simpler and convenient by the described actuator of extruding.

[description of drawings]

Fig. 1 is the three-dimensional exploded view of the utility model disk drive lock solid structure better embodiment.

Fig. 2 is a stereographic map of actuator among Fig. 1.

Fig. 3 is the three-dimensional assembly diagram of the utility model disk drive lock solid structure better embodiment.

[embodiment]

Please refer to Fig. 1, the utility model disk drive lock solid structure a plurality of disk drives 40 that are used for locking.The better embodiment of this lock solid structure comprises that one is used for fixing magnet stand 10, one elastic components 20 and an actuator 30 that presses solidly between this elastic component 20 and this magnet stand 10 of this disk drive 40.Wherein, these disk drive 40 both sides are provided with some hole clippings 41.

This magnet stand 10 has a diapire 11, and these diapire 11 both sides are extended side plate 12 respectively vertically upward, and each side plate 12 apical margin horizontal-extendings one supporting walls 13 is used to place a disk drive 40.Wherein a supporting walls 13 extends a sidewall 14 vertically upward from its edge, and these sidewall 14 front sides outwards are convexly equipped with some caulking parts 142, and rear side is offered some paired through holes 145 from top to bottom.Be provided with a shell fragment 149 between the wherein adjacent two through hole 145.This sidewall 14 is used to fix this elastic component 20 outwards being convexly equipped with the spacing tabs 147 of two relative settings with these through hole 145 adjacent position.These sidewall 14 posterior edges outwards vertically are bent to form a flanging 148, and two clamping holes 143 are offered at its middle part.One side of another supporting walls 13 is extended a sidewall 15 vertically upward, is respectively equipped with some support chips 141,151 that are used to carry a plurality of disk drives 40 on this two side 14,15.

The front end of this elastic component 20 is provided with a plurality of fixed orifices 21 to the caulking part 142 on should magnet stand 10, and the rear end bends inwards to the hole clipping 41 on should disk drive 40 and forms some paired fixing sheets 23, offers a through hole 24 between the wherein adjacent a pair of fixing sheet 23.The outwards vertical L shaped handle 22 that extends of these elastic component 20 rear end lateral margins.The both side edges up and down of this elastic component 20 is extended a catch 25 respectively to the spacing tabs 147 on should magnet stand 10.

Please be simultaneously with reference to Fig. 2, this actuator 30 roughly is H shape, and it has two parallel elastic arms 32, and this two elastic arm 32 is linked to each other by a linking arm 35.These two elastic arms, 32 inboard root edges are positioned at this place, linking arm 35 belows and inwardly protrude out a stop section 36 respectively.Each elastic arm 32 outwards is being convexly equipped with a wedge-shaped detents 34 near its free end respectively to lower limb on should the through hole 24 of elastic component 20.The free end apical margin of this two elastic arm 32 is respectively equipped with the operating portion 33 of a projection shape, pushes this two operating portion 33 and can make this two elastic arms, 32 inside elastic deformations.32 pairs of this two elastic arms should magnet stand 10 clamping hole 143 protrude out a grab 31 respectively.

Please continue with reference to Fig. 3, during assembling, earlier sidewall 14 directions of this elastic component 20 along this magnet stand 10 are pushed, make its level pass spacing tabs 147 on these magnet stand 10 sidewalls 14, and this elastic component about in the of 20 25 blocks of the catch on the both side edges in this two spacing tabs 147.The plurality of fixed hole 21 of these elastic component 20 front ends and the corresponding caulking part 142 of this magnet stand 10 be riveted mutually, thereby this elastic component 20 is fixed on this magnet stand 10.A plurality of fixing sheets 23 of these elastic component 20 other ends pass the corresponding through hole 145 of magnet stand 10 respectively simultaneously.Then, hold the operating portion 33 of this actuator 30, make two grabs 31 of these actuator 30 1 sides pass the through hole 24 of this elastic component 20, and push in two clamping holes 143 of magnet stand 10, and fix in this two clamping hole 143.The shell fragment 149 of this magnet stand 10 slips into and is contained between the stop section 36 and linking arm 35 of this actuator 30 along this two stop section 36, two wedge-shaped detents 34 on this actuator 30 are resisted against lower limb on the through hole 24 of this elastic component 20 respectively, and this elastic component 20 is fastened on this magnet stand 10.L shaped handle 22 on this elastic component 20 is pressed on the flanging 148 of this magnet stand 10.

During locking disk drive 40, push two operating portions 33 on this actuator 30 relatively, two elastic arms 32 of this actuator 30 are slipped in the through hole 24 of this elastic component 20 this two wedge-shaped detents 34 by elastic compression, no longer fix lower limb on this through hole 24.Outwards spur this handle 22 then and make the sidewall 14 of this elastic component 20 away from this magnet stand 10, thus the corresponding through hole 145 that a plurality of fixing sheets of this elastic component 20 23 break away from this magnet stand 10.Disk drive 40 is installed between the sidewall 14 and sidewall 15 of this magnet stand 10 again, and makes the hole clipping 41 on this disk drive 40 corresponding with the through hole 145 on this magnet stand 10.Push two operating portions 33 on this actuator 30 once more, make this two elastic arm 32 by elastic compression, this two wedge-shaped detents 34 is lower than the last lower limb of this through hole 24 respectively, unclamp this elastic component 20 then, this elastic component 20 is because the effect of elastic force towards these magnet stand 10 direction resiliences, makes a plurality of fixing sheets 23 of this elastic component 20 insert in the hole clipping 41 corresponding on the disk drive 40.Simultaneously, this two wedge-shaped detents 34 passes from the through hole 24 of this elastic component 20, unclamp two operating portions 33 that this actuator 30 is extruded, these two elastic arms, 32 resiliences, make this wedge-shaped detents 34 be limited to the last lower limb of this through hole 24 once more, this elastic component 20 is locked on this magnet stand 10, it can not be moved again.Disk drive 40 is locked.

During release disk drive 40, push two operating portions 33 on this actuator 30, make its two wedge-shaped detents 34 no longer fix the last lower limb of the through hole 24 of this elastic component 20, spur this handle 22 and make the sidewall 14 of this elastic component 20 away from this magnet stand 10, thereby the corresponding through hole 145 that a plurality of fixing sheets 23 that make this elastic component 20 break away from this magnet stand 10, take out disk drive 40, disk drive 40 releases are finished.

Claims (9)

1. a disk drive lock solid structure, be used for fixing the disk drive that a sidewall is provided with a hole clipping, it comprises that a magnet stand and in order to ccontaining described disk drive is fixed in the elastic component on described magnet stand one sidewall, the hole clipping of the corresponding described disk drive of described elastic component is provided with one and fixes sheet, it is characterized in that: described lock solid structure comprises that also one is installed in the actuator on the described magnet stand sidewall, described actuator has at least one elastic arm that is attached at described magnet stand sidewall, described elastic arm one end is fixed, the other end is a free end, and described free end is provided with the fastener that a button is held described elastic component.

2. disk drive lock solid structure as claimed in claim 1 is characterized in that: described elastic component is provided with a through hole, and described elastic arm is a pair of, and this fastener to elastic arm is limited to the last lower limb of described through hole respectively.

3. disk drive lock solid structure as claimed in claim 2 is characterized in that: this is two parallel elastic arms to elastic arm, and described two an elastic arms wherein side are linked to each other by a linking arm, and described actuator roughly is H shape.

4. disk drive lock solid structure as claimed in claim 3 is characterized in that: described two elastic arms protrude out a grab respectively near a side edge of described linking arm, and the corresponding described grab of described magnet stand sidewall ora terminalis is respectively equipped with a clamping hole.

5. disk drive lock solid structure as claimed in claim 3 is characterized in that: described two elastic arm inboards are positioned at place, described linking arm below and protrude out a stop section respectively, and described magnet stand sidewall is provided with a shell fragment that can be installed between described linking arm and the described stop section.

6. disk drive lock solid structure as claimed in claim 1 is characterized in that: described free end of elastic arm extends to form an operating portion to the direction away from the magnet stand sidewall.

7. disk drive lock solid structure as claimed in claim 1 is characterized in that: described magnet stand sidewall outwards is convexly equipped with the two spacing tabs that are provided with relatively, and the corresponding described spacing tabs of the both side edges up and down of described elastic component extends a catch respectively.

8. disk drive lock solid structure as claimed in claim 1 is characterized in that: the outwards vertical L shaped handle that extends of described elastic component one distolateral edge.

9. disk drive lock solid structure as claimed in claim 1 is characterized in that: described elastic component is attached on the described magnet stand sidewall, and the one end is fixed, the movable end that the other end is held by the actuator button.

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